Machine tool



Aug. 3%, 1949- w. c. DE GRAFF MACHINE TOOL 2 Sheets-Sheet 1 Filed Jan. 21, 1948 iiI I NVENTOR. I WILBUR flfl qwm-"F FITTQPNE' s Aug 30, 1949. w. c. DE GRAFF MACHINE} T'ooL 2 Sheets-Sheet 2 Filed Jan. 21, 1948 INVENTOR.

WILBLIR E.

fir uaawz s the spindle being provided with the usual chuck attaching nose I I. Mounted on the spindle nose II, by means of bolts I2 or the like, is the main body member I3 of the improved work holding means or chuck of this invention. This body member I3 may be formed either in one piece or of several united parts, the latter construction being that which is illustrated inFig. 1 wherein it will be seen that a removable cylindrical cover portion I30, is provided to afford a ready means of access to recesses or openings in the chuck body.

The body member of the chuck is provided with a pair of diametrically extending recesses or openings I4 in the forward face thereof forming guideways in which a pair of oppositely disposed jaw holding members l5 and I6 are slidingly mounted. Each jaw holding member comprisesa radially extending portion H, which portion is received in one of guideways I4, and an axially extending portion I8 which extends forwardly from the body member I3. Adjacent their forward ends each of the axially extending portions I8 is provided with a radially extending bore in which a stepped cylindrical portion I9 of a work engaging means 20 is rotatably supported by antifriction thrust bearings 2I and 22. The steps on the cylindrical portions I9 of each of the work engaging means provide shoulders for cooperation with the inner races of the bearings 2I and 22, theouter races of these bearings being retained in counterbored portions of the bore through the corresponding jaw holding member. the cylindrical portions [9 is threaded and is provided with a nut 23 and lock washer so that the work engaging means 20 are held from radial displacement relative to the portions I8 of the jaw holding members while relative rotation is per mitted therebetween. A removable cap or plug 26 is provided for the outer end of the bore in i? each of the portions I8 to retain the bearing 2i and prevent dust or other foreign matter from entering the bearings 2I and 22.

The inner ends of the work engaging means 2|] preferably are formed as replaceable members or jaws 21 to permit work of various shapes and sizes to be properly held therebetween. The jaws 21 are each secured to the corresponding member 20 by a bolt 28, proper positioning of the parts being secured, and relative rotation therebetween being prevented, by a rectangular, diametrically extending tongue on each member 21 which fits into a correspondingly shaped groove in the end of the corresponding member 20. Each of the work engaging members '20 has the portion 7 thereof, adjacent the jaw 21, formed polygonally, as viewed in cross section, for a purpose herein after described, these two polygonal portions being designated 29 and 29', respectively.

In order to effect actuation of the jaw holding members I5 and I6 to and from work gripping position, their radially extending portions H are each provided with a tooth 30 which is received in an opening between teeth-like. projections 3| on one arm of a bell-crank lever 32, which lever is pivotally mounted by a pin 33, or the like, in the main body member I3. The other arm 34 of the bell-crank lever is provided with a tooth-like projection 35 which is adaptedto be received between, and actuated by, spaced circumferentially extending teeth 36 provided adjacent the inner end of a jaw actuating member 31. This jaw actuating member 31 is slidably carried in the spindle bore and is keyed, splined or otherwise operatively connected thereto to rotate therewith. The jaW' The outer end of each of 4 actuator 3'! is provided with a conventional means, not shown, by which the said actuator may be axially moved thereby rocking the bell-crank levers 32 to move the jaw holding members I5 and It. That is to say, when the actuator is moved to the right as viewed in Fig. 1, the jaw holding members I5 and I6 of the chuck are moved outwardly to work releasing position and, when the actuator 31 is moved to the left as viewed in Fig. 1, the jaw holding members I5 and I6 move radially inwardly to firmly grip and hold a workpiece W therebetween. The jaw holding members I5 and I6 are guided in their radial movements by the guideways M and additionally by a cylindrical flange 38 provided upon the outer end of 2. sleeve 39, the flange 38 being received in slotted openings at the inner end of the radially extending portions ll of the jaw holding members I5 and I6. This sleeve 39 is fixedly mounted in the body member I3 and held against axial movement, the inner end of the sleeve 39 extending into the forward end of the jaw actuator 31 to provide a sliding support for the latter.

The workpiece W here illustrated is a pipe coupling provided with four radially extending ports or openings disposed apart with respect to each other with their axes in a common plane. It will be understood, however, that the invention is not limited to use with such a workpiece but may be employed with articles of other configurations, useful for other purposes, and the type of pipe coupling here indicated as held by the chuck is intended solely to facilitate the description. In manufacturing such a coupling, a number of machining operations must be performed upon each of the four openings or ports. These operations, for example, may comprise boring, facing and threading and during such operations, the work engaging means of the chuck and hence the workpiece, must be firmly held from rotation about an axis extending through the cylindrical portions ill of the work engaging means. After the operations upon one face or side of the coupling are completed it must then be indexed or repositioned by rotating 90 to bring the next succeeding face or side into operative relationship with the tool or tools which are to operate thereon. These steps, of firmly holding the workpiece and work engaging means of the chuck from rotation relative to the body member of the chuck during the machining operation and then indexing the work holding means and workpiece to bring a new side or face of the latter into operative relationship to the tool or tools which are to effect the machining operations, are then repeated until each of the sides or faces of the workpiece have been suitably machined.

In order to effect this indexing and holding of the work engaging means of the chuck, and hence of the workpiece W, the chuck is provided with an actuating member, generally designated 60, which is mounted in the chuck to rotate therewith and relative thereto. In the form illustrated in the drawings, this actuating member comprises an annular portion AI which is positioned between the work engaging members 28 and the radial portions I? of the jaw holding members I 5 and It. The rear face of this annular portion preferably has a sliding engagement with the portions i? of the jaw holding members, and the forward face of the annular portion of the actuating membar has a planar surface or surfaces which engage one of the planar surfaces, such as 42 and 42, on the polygonally shaped portions 29 and 29', respectively, of the work engaging means for sleeves 5B and 5| are interconnected for rotation together and with the spindle i while permitting axial movement of the sleeve '54 relative to the sleeve 51. Adjacent its outer end the sleeve 55 is provided with the previously mentioned cam shaped surfaces 51, see Fig. 2. In the illustrated embodiment the cam shaped surfaces 50 and are shown as helical splines formed upon the shaft is and in a nut member 58, the latter being connected to the outer end of sleeve 54 by a set screw as or the like which engages in an opening in the nut member to prevent relative movement between the nut and sleeve members. While helical splines have been illustrated upon the shaft and nut it will be apparent that other camming configurations may be employed so longas they are effective to produce relative rotation between the shaft and the sleeve 54 upon axial movement of the latter.

The sleeve 5-; is further provided with an exterior flange iii) and an antifriction bearing 62 is mounted between this flange and a retaining ring 6 t, the latter preferably being threaded upon cooperating threads on the sleeve 54 and retained in adjusting position by a set screw 63. Surrounding the flange 60 in spaced relationship thereto is an annular member 64 having an inwardly projecting flange adjacent one side thereof for cooperation with one of the races of the bearing 62. The other side of the member 64 has an annular member 55 connected thereto by means of screws 66 or the like, the member 65 projecting inwardly adjacent the other race of the bearing 62 as shown in Fig. 1. The members 64 and 65 are axially moved but held from rotation, by means hereinafter described, the bearing 62 permitting relative rotation between the sleeve 54 and the members 64 and 55 while retaining the sleeve and members for movement together in an axial direction with respect to the shaft 49.

This axial movement of the sleeve 58 produces;

rotation of the shaft 49, and hence of the annular portion 4 I, in one direction or the other depending upon the direction of the axial shifting movement thereby effecting the previous described indexing.

In order to permit the above mentioned relative rotation between the sleeve 54 and the members 6i and es, the spaces between retaining ring6i and shoulder to, and between the members 54 and 65 are such that the races of the bearing 62 may rotate relative thereto without appreciable axial play. That is, when an axial force, directed to the right as viewed in Fig. 1, is applied to the member 6d this member firmly engages the adjacent race of the bearing 62 pre- Axial movement is imparted by means of a pair of spaced levers 67, 68 which are connected intermediate their ends, by dowel pins 69 or the like, to either end of a shaft 10, the shaft i0 being rockingly supported in a bore extending through the outer end of a bracket member H which is, in turn, fixedly secured to the frame 72 of the'machine tool. The upper end of each of the levers 61 and so is provided with a pivot pin 73 and 1%, respectively, which pins are freely received in openings or recesses 15 and 16 at diametrically opposite points on the annular member 65. The lower ends of the levers 61 and 68 are connected in spaced relations on a pivot pin or shaft 18, by dowel pins, and the intermediate portion of said shaft forms a bearing for the outer end of a piston rod I7. The piston rod 'I'I extends to and is connected with a piston Na located within a cylinder i9 which is carried by the bracket member H of the machine tool and is provided with inlet and outlet openings or ports such as 80 and 8| for the admission and exhaust of a fluid under pressure.

The construction just described is such that when fiuid under pressure is admitted to the cylinder 19 through the port 81, the port 88 then serving as the exhaust port, the piston rod Ti is moved to the left to the position shown in Fig. 1, thereby rocking the levers B1 and 68 in a clockwise direction. This moves the annular member 64, and hence the sleeve 54, to the right to the position shown in Fig. 1 so that the helical splines of the nut 53, cooperating with the helical splines on the shaft 39, cause the latter and the annular portion 4| to rotate in a clockwise direction as viewed in Fig. 3, that is, in the direction indicated by the arrow R in Fi s. 4 and 5. Hence, the polygonally shaped portion 29 is engaged and indexed by the plunger member 43 as previously described, the actuating member and the polygonally shaped portion 29 then occupying the positions as shown in Fig. 6. Since the workpiece is firmly held between the jaws, it and the polygonal portion 29' y are also indexed, the position of the portion 25' venting relative rotation therebetween. At the 1 same time the other race of the bearing is held tively. When an axial force is applied to the,

member 64 to the left or in a reverse direction, the member 65 engages the adjacent race of bearing 62, preventing relative rotation therebetween, and the other race ofthe bearing engages shoulder at so as to be held against relae tive rotation with respect thereto. The balls of the bearing again permit relative rotation bej tween the races and hence between member 64 and sleeve 54, the races of the bearing now rotating relative to the retaining ring GI and. the member 64.

at the end of the indexing movement being shown in Fig. 8. The portions 29, 29 and the workpiece are held from any indexing or rocking movement during a machining operation upon the workpiece due to the engagement of the spaced planar portions on the annular portion all with the planar faces on the polygonally shaped portions.

When fluid pressure is admitted to the cylinder 79 through the port 8 port 8! then serving as the exhaust opening, the levers 6?, 68 are rocked in the reverse direction thus moving the member 64 axially to the left as viewed in Fig. 1 and thereby causing the nut 58 to effect rotation of shaft 49 in the reverse direction to its previous actuation. This returns the annular portion M of the actuating member to its preindexed position relative to the polygonally shaped portions 29 and 29' of the work engaging member, this position relative to the portion 29 being shown in Fig. 4.

It will be observed that this actuation of the member 48, and hence indexing of the work engaging members 20 together with the work W held therebetween, may be effected either when the spindle Ii! is stationary or when the latter is in rotation since the ball'bearin 62 permits relative rotation between the annular member 64, which is non-rotatable, and the sleeve 54 which rotates with the spindle. It will also be observed that the actuating member 40 rotates with the spindle it, when the latter is in rotato the member 6 1 aesoyzrs' ing connection rtherebetween when "the spindle is: rotated. Aclmation. of the annular-member '64. durin'g'rotation of the spindle simply causesthe indexing movement of the actuating member 46;, that is, its TI'ElEtiVB' rotation withrespect to the chuck 'body'l 3, to be added to or subtracted from its 'rotationin' conjunction with the spindle and chuck;

The annularportion M of the actuating member'flll is preferably provided with arcuate grooves.

or recesses '82 andBS which: are arranged in diametricallyzoppos'ite portions ofthe annular member and-each extend around the circumference thereof for approximately-Byers shown -in Fig. 3. Extending into th-e arcuate'groove82 is the inner end of 'a' log B l; alsosee Fig; "7, the outer end of, which is attached; by'screws 85 or the like, to, themain body memberil-hofthe chuck. A similar lug "'86, fastened to the-chuck body 13 by screws ll-l; extends into the arcuate groove 83; The inneren'ds-o'f the'lugs' dd and llii'have a'slidillg fit in the groove'fl and 83, respectively, so thataxial 'displacement-oi the actuating member All is positively prevented without interfering with the rotation thereof' relative-to the chuck body 1'3 for effecting the previously :descr iloe-d indexing of the Zi'aws. Thelugs Sl-and 85 therefore resist any end thrust i mp'osed'upon the actuating member by movemen't' of the nut 58 with respect to theiielically 'splined' portion of shaft 49. The provision f such en'd thruSt resisting means obvi'ate'sfan y tendency of the actuating member id to :cause a lateral force to be applied to the "cylindrical portions IS- dfiheWOrk hOlding means and the j aw -members l :and 16;

The operation :cf T'bh'e improvedwork; molding means "of zthis rinventionzimay The /brieflysum marized Ias follows:

Let it he cassumedithatFt'he machineroperations uponra worlepieoe have been nompleted'iand: ainew workpiece s'rszto he substitutediin ilts placeaand that the indexingmechanism otccupiesiits locked position zasvslxoumin Fig. Thejaw actuator sleeve 1 .zis :then nnovedztozthemightyasrviewed in Fig. 1, .by :conuentional t mechanism, not :shown, thereby rocking it'he hell-crank levers 32 :in a counter-:cloclcwise :directic-n. Hence, :the jaw holding :m'emhers TF5 rand iffiuare :moved radially outward with {the result that :the work engaging members 2'0zareiseparated sufiicientlyrtorallow the completed workpiece to be-rremovedland another workpiece W to he:lnserted. Aiter the new work piece mas-been tplacedhetween athe jaws, the jaw actuator sleeve 3 l1is1 moveddn 'the reverse ;direction ithus causing the :jaw -holding :members l5 and t6 .toi-movezradially inward =so-rthatithe 'work engaging mean-s ll! firm'ly grin and holdthe w ork piecewwithaface or side*thereof=which is to'be machined in proper :alignment with *the tool or tools which are-t0 operate thereon. The spindle H) is thenrotatedlbythe conventional driving means, not shown; causing the ehuck, :and hence the workpiece', to be:rotated-=about the'axi of :the

spindle:sothatethennachiningpporation oroperations may :he nerformedxuponithe workpiece. ,At'

this time the-actuatingzmemherdo :lor the indexing .mechanism has its gplanar ssurfaces on :the annular portion 4 l -.thereof in engagement with planar faces 42 and 42' of the polygonally shaped 19 portion 2 9 and-2,9, respectively, ofjthe' work holding means 20' so thatthe, work engagin "means,

and hence the work, are prevented'gfrorn rotating" about an axis extending diametrically of "the axis,

of the .spindle. ZIhe indexing actuating :member 40 rotates with the spindle and chuck at thistime so that no relative displacement between the actuatingm'ember and the chuck takes place.

After. the machiningoperation or operations upon theouter side or .face of the workpiec have been completed vandit i desired;- to index the Work to'bring a new face '01 Side thereof into operative relation .offthe tool or, tools of the machine tool, the operator supplies fluid pressure to the cylinder '19'throughiheport while. thespindle and chuckare still (in rotation. The.

application of fluid pressureto. the. cylinder causes the piston rod TI oi the latter torock the outer-ends of lthe arms. 51, 6.8 totheleftras .viewed in Fig. .1,, thus moving the annular member all.

axially .to. the deftso that. the :sleeye 54. and the nut 5;8, connected therewith, -=.ar.e likewise moved axially in that direction. Itwill b remembered that when :the spindle 0 isinsrotation. the .nut

5.8 cooperates with the :hBliCdlfSDlillfiS 5.0 on. theshaft 49 to drive the.lattersimultaneously wi h the spindle. WhensthemutfiS-is moved as just mentioned it further-cooperates with thesplines so toslightlyretaud the rotation, ashes 49 and hence of the annularportion-a4I,v This retard ing: of rotation .of the actuating member {causes the chuck andits laws toloe advanced relativeto the actuating memberinacmckwisedirecti n, asviewedin Fig. Thatis, theactuatin zmemher from ,its lock-ed position, substantially .as shown.in .-F.ig. 5, lac-that shown in I ls-A. I D111"! in this movement of the mechanism, whicnpo sitions .-the;parts :for -indexing ,the;;plung,er 53 isdepressed "within the annular fl wrtion Al, the p n e -th meiaeai ip oiected .rorwardl when it has cleared the polygonally shaped portion 72$. This movement has alsoaDQSitiQned-the reoessl ld to, the right, of -,the polysonalnortion 2,91, asvi wed in Fig. :8.

. EIuid pressure .-i s then applied- -;to cylinder 19 thr u h :the port. (8 IIZhis causes the pist n rod l toomove outwardl-y-of .the Qylinder rocking-the outer .cndsrofrthezarmssiil, fill-totharieh asyiewedinFig. .1, thusmovirlgatheannular ber '64 axially to the 1 ights,0,.that .the sleeve 54 and .-,the :nutdB arelikewlse :mcved axially in thatrdirection. Thecooperatingsplines on shall;

39 and inthe nut 5B therefore. slightly .increases' thespeediof rotation -.of :shaft 49 and-hence of the annular portion 41 rotation of the-shaft. .duringthis operationadvances the annular portion ill, relative to the chuck (and itsjaws infa. clockwiserdirection .as'

std-permit this-rotationiof-theolygonally shap d portions. 7

When the stroke :of :thepiston rod 11, and

hence of .the ,nut :58, have r een lcornpletedrthe;

Work engaging members 20 will have been in- The increased speed of dexed an amount corresponding to the central angle subtended by one side of the polygonally shaped portion 29 which in the illustrated form of the device is 90. Consequently, the work is indexed a like amount since the work engagin means 20 firmly clamp the work therebetween. The work is held in this new indexed position by the face-to-face engagement of the planar surfaces upon the annular portion 4! and the adjacent face of the polygonally shaped portion 29 as shown in Fig. 6, this holding or looking being supplemented by the engagement of a portion of a planar face on the polygonal portion 29 with a planar surface on the annular portion ll of the actuating member, see Fig. 8. Hence, the workpiece has been accurately indexed to bring a new face or side into position for machining without the necessity of interrupting the rotation of the spindle and chuck.

After this newly indexed side or face of the work has been machined, fluid pressure is again supplied to the cylinder 19 through the opening or port 80 thus actuating the piston rod 11 in the direction to rock the levers 67, 68 in a counter-clockwise direction. This causes the nut 58 to again move to the left as viewed in Fig. 1, thus moving the plunger member 43 back to its position as shown in Fig. 4. Application of fluid pressure to the port 8i f the cylinder and employing the port 80 as the exhaust will then operate the mechanism, as previously described, to again index the work engaging means, and hence the work, to bring a new face or side of the latter into operative position.

In the illustrated embodiment both work engaging members 20 have been shown and described as provided with polygonally shaped portions. If desired, however, the portion 29 may be made cylindrical rather than polygonal in which event the adjacent face of the annular portion 4| of the actuating member need not be recessed or provided with a planar surface. Also. in certain installations it is not necessary that both work engaging means 20 be rotatable. Thus, the lower of these means, as viewed in Fig. 1, may be stationary, the jaw 21 of the other work engaging means being shaped to cause relative r0- tation between the work and the non-rotatable jaw during indexing. Furthermore, the polygonally shaped portion 29 need not be formed substantially square in cross section, as shown, but may have a greater or lesser number of sides if desired. For example, by employing a member having eight sides an article having eight surfaces disposed at equal angular distances may be indexed. Such an eight-sided polygonal member could also be employed for indexing a foursided article or workpiece W by operating the work indexing mechanism twice for each surface that is to be machined. Polygons having a still different number of sides may be likewise employed depending upon the type of workpiece or article that is to be indexed. Moreover, while the improved chuck has been illustrated and described as preferably embodied in a machine tool of the lathe type it will be readily apparent that the invention is also useful for positioning and holding work in drill presses, grinding machines, or the like, since rotation of the improved chuck is not necessary for its operation. Various other modifications and equivalent constructions may be employed in a practical embodiment of the invention and, therefore, the invention is not to be considered as limited to the details of app ratus which are illustrated and described except 12 as required by the spirit and scope of the appended claims.

7 Having thus described my invention, I claim: 1. An indexing chuck comprising a body member, a pair of work holding means supported by said body member and adapted to clamp or unclamp a workpiece therebetween, means mount ing a portion of one of said work holding means for rotation about an axis extending transversely of the axis of said body member, the said rotatable portion of said one work holding means including a polygonally shaped portion havin a planar surface on each face thereof, an actuating member journalled in said body member for rotation relative thereto, means for rotating said actuating member relative to said body member, and means on said actuating member engaging said polygonally shaped portion to index the rotatable portion of said one work holding means a predetermined amount when said actuating member is rotated relative to said bOdy member, the said actuating member having a planar surface thereon for cooperation with a planar surface on a face of said polygonally shaped portion to retain the rotatable portion of said one work holding means in the indexed position to which it is moved by said actuating member.

2. An indexing chuck comprising a body member; a pair of jaw members supported on said body member for movement towards and away from each other to clamp or unclamp a workpiece therebetween and for rotation about an axis extending transversely of the axis of said body member to rotatably index a workpiece held by said jaw members, at least one of said jaw mem-- bers including a polygonally shaped portion having a planar surface on each face thereof, an actuating member journalled in said body member for rotation relative thereto, means for rotating said actuating member relative to said body member. and means on said actuating member engaging said polygonally shaped portion to index the jaw members and a workpiece held therebetween a predetermined amount when said actuating member is rotated relative to said body member, the 'said actuating member having a planar surface thereon for cooperation with a planar surface on a face of said polygonally shaped portion to retain the jaw members and the workpiece in the indexed position to which they are moved by said actuating means.

3. An indexing chuck comprising a body member, a pair of jaw members supported on said body member for movement towards and away from each other to clamp or unclamp a workpiece therebetween and for rotation about an axis extending transversely of the axis of said body member to rotatably index a workpiece held by said jaw members, said jaw members each including a polygonally shaped portion having a planar surface on each face thereof, an actuating member journalled in said body member for rotation relative thereto, means for rotating said actuating member relative to said body member, and means on said actuating member engaging one of said polygonally shaped portions to index the jaw members and a workpiece held therebetween a predetermined amount when said actuating member is rotated relative to said body member, the said actuating member having one or more planar surfaces thereon for cooperation with a planar surface on a face of each of said polygonally shaped portions to retain the jaw members and the workpiece in the indexed positap-soars ported by -;-said body member and adapted to clamp or unclamp a workpiece therebetwcen, means mounting a portion of one of said work hol'ding means for rotation about an axis extendi ng transversely of the axis of rotation 'of said body member, the said rotatable portion of said one work holding means including a polygonally "shaped portion having a planarsurface on each face thereof, an actuating member 'journall'ed in said body member for rotation therewith and "relative thereto, means for rotating said actuating member relative to said body member,-and means on-said actuating member engaging said Tpoly gonally shaped-portion to index the rotatable portion of said'one work holding means aprodetermined amount when said-actuating member is-rotated-relative to said body member, the saidac tuating member having a planar surface thereon for cooperation-with a planar-surface-on a 'face 'of said polygonally shaped portion toreta'in the rotatable portion of said one work holdin'g' mans in the indexedposition to which it is moved by said actuating member.

5. An indexing chuck comprising -a rotatable body member, a pair of jaw memberssupported on said body member for movement towardsand away from each other to clamp or unclamp a workpiece therebetween, the said jaw members including portions supported for rotation about an axis extending at right angles to the axis of rotation of said'body member to thereby rotatably index a workpiece held by said jaws, at least one of the'rot'atable portions of said jaw niefiibers including a polygonally shapedportionh'aving "a planar surface on each face thereoflanactuating member journallecl in said body'member for rotation 'therewith and relative thereto, means f for rctatin'gsaid actuating member 'relativeto said body member, and means on'said actuating member "engaging said polygonally shaped portion to index the'r'otatable portions of said jaw members and a workpiece held therebetween a predetermined amountwhen-said actuating member is rotated relative to said bo dymember, the-said actuating member having a-planar surface thereonffor cooperation "with a planar surface on a face of s'aid'p'olygonallyshaped portion to retain the rotatable portions of the jaw members and the workpiece in the indexed position to which they are moved by said actuating member.

6. An indexing chuck comprising a rotatable body member, a pair of jaw members supported on said body member for movement towards and away from each other to clamp or unclamp a workpiece therebetween, the said jaw members each including a portion supported for rotation about an axis extending at right angles to the axis of rotation of said body member to thereby index a workpiece held by said jaw members the rotatable portion of each jaw member including a polygonally shaped portion having a planar surface on each face thereof, an actuating member journalled in said body member for rotation therewith and relative thereto, means for rotating said actuating member relative to said body member, and means on said actuating member engaging one of said polygonally shaped portions to rotatably index the jaw members and a workpiece held therebetween a predetermined amount when said actuating member is rotated relative to said body member, the said siting member having pl'anar surrae es there- '-f'o' rorccb eration re'spectivelywith aplanar sua f eon atace'of each orsaid polygonally shaped portions "to re'tain the jaw members and the 5 workpiece the indexed position to which they area-leveebysaiaaetuating means.

-'7. indexing 'chuck comprising a rotatable bod member, a pair of aligned "jaw members e'tl onsets-body member for movement to: and away-from each other 'to clamp or on clamp a workpiece threbe't-wee'n the said raw m bers inol-iiding portions mounte'd 'for lo't'a about an axis extending at right angles to the axis 'of-rotation or said body memberto tetra ably index a wet-k" iece held by said "3' aws at least one of the' rbt-ata epbrtions of said jaw members including -'a polygonally shaped portion havinga planar surface on each face thereof, an actuatin'g member -journall'ed in said body member "for rotation therewith and relative thereto, ni on 'said actuating member engaging said 'pol yg' onally sh-aped p'ortio'n to indexthe rotatable portion's of said jaws "and a workpiece held th'e'r'ebetween a predetermined amount when said ab'tiiating m'emb'er is rotated relative to said body member the "said actuating member having a planar surface thereon 'for cooperation with a planar surface on a --iace of said polygonally shaped portion toretainthe-rotatable portioirs'o f the new members and =the workpiece in :the indexed position to which they are moved byi'sald actuating member, 'a collar inemb'er surrounding an axial extension of said actuating member, means to-con-strain said collar member to rotate with said *body' member while permitting 'axiai movement of the collar member "relative to the body member, cooperating camming surfaces upon said axial extension and i said collar mem ber,-and-means to move said collar :member axi ally ofsaid'extensionthereby causing the cooper atingeammingsurfaces toeffect rotation of actuating member 'relativeto the body member and thus-index the rotatable portions of said :j aw members "and the workpiece heldthereby.

-8.An indexing chuck -com-prising a rotatable" body -member, a pair of "aligned jaw -members mountedon-said body member for movement towards and a-w'ay from each other toclamp or'un- V clamp ea workpiece 'th'er'ebet'ween, the said -jaw members =ihclu'ding .iportions mounte'd fo'r ro"a'- ti'on about an axis "extending at -ri'g-iit angles 'to the axis of rotation of said body member to rotatably index a workpiece held by said jaws, at least one of the rotatable portions of said jaw members including a polygonally shaped portion having a planar surface on each face thereof, an actuating member journalled in said body member for rotation therewith and relative thereto, means for rotating said actuating member relative to said body member, and a projection on said actuating member adapted to engage a corner of said polygonally shaped portion when said actuating member is rotated relative to said body member thereby indexing the rotatable portions of said jaw member and a workpiece held therebetween, the said actuating member having a recess in the face thereof adjacent said projection to accommodate a corner of said polygonally shaped portion when the latter is indexed, the said actuating member also having a planar surface thereon for cooperation with a planar surface on a face of said polygonally shaped portion to retain the rotatable portions of said jaw members and the workpiece in an indexed position.

9. An indexingchuck comprising a rotatable body member, a pair of jaw members supported on said body member for movement towards and away from each other to clamp or unclamp a workpiece therebetween, the said jaw members each including a portion supported for rotation about an axis extending at right angles to the axis of rotation of said body member to thereby index a workpiece held by said jaw members, the rotatable portion of each jaw member including a polygonally shaped portion having a planar surface on each face thereof, an actuating member journalled in said body member for rotation therewith and relative thereto, means for rotating said actuating member relative to said body member, and a projection on said actuating member adapted to engage a corner of one of said polygonally shaped portions when said actuating member is rotated relative to said body member thereby rotatably indexing the rotatable portions of said jaw members and a workpiece held therebetween, the said actuating member having spaced recesses in the face thereof to accommodate the corners of said polygonally shaped portions when the latter are indexed, the said actuating member also having spaced planar surfaces thereon for engagement respectively with adjacent planar surfaces on said polygonally shaped portions to retain the rotatable portions of said jaw members and the workpiece in an indexed position.

10. An indexing chuck comprising a rotatable body member, a pair of aligned jaw members mounted on said body member for movement towards and away from each other to clamp or unclamp a workpiece therebetween, the said jaw members including portions mounted for rotation about an axis extending at right angles to the axis of rotation of said body member to rotatably index a workpiece held by said jaws, at least one of the rotatable portions of said jaw members including a polygonally shaped portion having a planar surface on each face thereof, an actuating member journalled in said body member for rotation therewith and relative thereto, means for rotating said actuating member relative to said body member, a member movably mounted in an opening in said actuating member, resilient means normally urging a portion of said movable member to project beyond the outer face of the actuating member which projecting portion is shaped portion when said actuating member is rotated relative to said body member and thereby index the rotatable portions of said jaw members and the workpiece held therebetween, the said actuating member having a recess in th face thereof adjacent said projection to accommodate a corner of said polygonally shaped portion when the latter is rotated, the said actuating member also having a planar surface thereon for cooperation with a planar surface on a face of said polygonally shaped portion to retain the rotatable portions of the jaw members and the workpiece held thereby in an indexed position, the said resilient means yielding to allow said movable member to move inwardly relative to said actuating member to permit the planar surface on the polygonally shaped portion to engage the planar surface on said actuating member.

11. An indexing chuck as defined in claim 10 and in which the means for rotating said actuating member relative to said body member includes a member mounted for rotation with said body member and for axial movement with respect thereto, cooperating camming means carried by said actuating member and said axially movable member, a member mounted to reciprocate with said axially movable member but held from rotation therewith, and means mounted upon a stationary support to reciprocate said last-mentioned member and thereby index said Jaws.

WILBUR C. DE GRAFF.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 961,867 Krug June 21, 1910 1,801,602 Hunziker Apr. 21, 1931 2,349,119 Soule May 16, 19% 2,362,071 Hunziker Nov. 7, 1944 FOREIGN PATENTS Number Country Date 23,433 Great Britain Sept. 15, 1904 324,751 Great Britain Feb. 6, 1 930 

